SU1003167A1 - Magnetically-operated switching element - Google Patents

Description

(54) MAGNETO-CONTROLLED SWITCHING ELEMENT

Claims (2)

1 The invention relates to automation and computer technology and can be used in automatic control systems, control, measurement and communication as a magnetically controlled switching element of pl of various limits of technology. Known magnetically controlled switching elements - reed switches G 11 These devices have a significant drawback - contact bounce when triggered, which leads to a decrease in reliability and service life. A closing magnetically controlled contact is known, containing a sealed balloon, two magnetic conductors, cantilevered and counter mounted inside the balloon in its opposite. A disadvantage of the known switching element is the presence of contact bounce when switching. This leads to contact wear, reduced reliability and service life. The purpose of the invention is to increase the expectations of the nosgs and the lifetime of the magnetically controlled switching element. The goal is achieved by the fact that in the magnetically controlled switching element each of the magnet probes is provided with an optical fiber connected to it, the inner ends of the optical fibers are polished, with a gap along the longitudinal axis of the sealed balloon Chucked magnetic circuits are made in the form of ferromagnetic ring sections, placed on optical fibers. The drawing shows the magnetores. linkable switching element. The OV consists of short circuits of the optical fibers 1 and 2, which are inserted from the opposite ends of the rei bulked balloon 3. At the end sections of the optical fibers 1 and 2, they are located inside the balloon 3, for example, sprayed with ferromagnetic material, which provide interaction with control magnetic flux. The inner ends of the light guides are ground and prepa- ned to transmit the light flux from one fiber to another when the element is triggered. The light guides 1 and 2 are installed with a gap along the longitudinal axis of the device, which creates the possibility of combining their tenders when the control magnetic flux interacts on them. The sealing of the optical fibers in the flask is carried out by soldering. If necessary, a metal crimp sleeve 5 can be worn on the light guide at the optical fiber. The proposed device can be made in the variant for the operation with memory and without memory. In the first case, medium magnetic hardness or magnetic hard materials are used to provide a memory as (}) ferromagnetic material. In the second case, magnetically soft ferromagnetic materials. The device works as follows. In the initial state, the control flow is absent, the ferromagnetic regions of the optical fibers are demagnetized, and the ends of the fibers do not overlap each other, which corresponds to the state of the element turned off. When exposed to a control magnetic field created by a control winding or a permanent control magnet, the magnetic flux flows through the ferromagnetic parts of the contact parts, causing them to move each other, which leads to the overlapping (imposition) of the ends of the optical fibers and the passage of the light flux from one light guide to Other This corresponds to the state of the element Enabled. Switching takes place without chatter, as there are no collisions and rebounds. The technical and economic effect of the proposed solution is that its use allows to increase reliability and service life by eliminating bounce. Indeed, in modern relay-contact devices on repvcons (the relay with reed switch is taken as the basic device) the process of each switch is accompanied by a bounce of contacts, e. additional closure and dilution of the contacts in front of the main (mini-, mind two - three closures and rebounds to the set in the closed closed state). This increases, respectively, 2-3 times the total number of switching, and significantly reduces the reliability and service life of the device. In information and devices, this leads to malfunctioning. The bounce of contacts when working together - with relay and injection terminals is especially harmful. with integrated microcircuits, as the latter are very sensitive to bounce. The proposed magnetically controlled switching element has no bounce. Claims of the invention A magnetically operated switching element comprising a sealed balloon, two magnetic conductors mounted cantilever and opposite each other inside the balloon in its opposite ends, characterized in that, in order to improve the reliability and service life of the element, each of the magnetic conductors is provided with a light guide connected to it, the inner ends of the optical fibers are made polished, installed with a gap one relative to the other along the longitudinal axis of the sealed balloon and without overlapping the projections of them above awns a plane cross section of the sealed container, and the yokes are formed as annular ferromagnetic sections located on the fibers. Sources of information taken into account in the examination - 1.Rabkin L.I., Evgenova I.N. Magnetically operated sealed contacts. Ed. 2nd, M., Sv z, 1976. 2. Kharazov K .. I. Relay with magnetized contacts. M., Energie, 1971, p. 7, fig. one.